Abstract

Somatic mutations of the cohesin complex subunit STAG2 are present in diverse tumor types. We and others have shown that STAG2 inactivation can lead to loss of sister chromatid cohesion and alterations in chromosome copy number in experimental systems. However, studies of naturally occurring human tumors have demonstrated little, if any, correlation between STAG2 mutational status and aneuploidy, and have further shown that STAG2-deficient tumors are often euploid. In an effort to provide insight into these discrepancies, here we analyze the effect of tumor-derived STAG2 mutations on the protein composition of cohesin and the expected mitotic phenotypes of STAG2 mutation. We find that many mutant STAG2 proteins retain their ability to interact with cohesin; however, the presence of mutant STAG2 resulted in a reduction in the ability of regulatory subunits WAPL, PDS5A, and PDS5B to interact with the core cohesin ring. Using AAV-mediated gene targeting, we then introduced nine tumor-derived mutations into the endogenous allele of STAG2 in cultured human cells. While all nonsense mutations led to defects in sister chromatid cohesion and a subset induced anaphase defects, missense mutations behaved like wild-type in these assays. Furthermore, only one of nine tumor-derived mutations tested induced overt alterations in chromosome counts. These data indicate that not all tumor-derived STAG2 mutations confer defects in cohesion, chromosome segregation, and ploidy, suggesting that there are likely to be other functional effects of STAG2 inactivation in human cancer cells that are relevant to cancer pathogenesis.

Highlights

  • Cohesin is a multiprotein complex comprised of four primary subunits (SMC1A, SMC3, RAD21, and either STAG1 or STAG2) and four regulatory subunits (WAPL, CDCA5, and PDS5A or PDS5B) that is responsible for sister chromatid cohesion, regulation of gene expression, DNA repair, and other phenotypes [1,2]

  • STAG2 mutations are common in bladder cancer, Ewing sarcoma, and myeloid leukemia, and are present in glioblastoma multiforme (GBM), melanoma, and other tumor types [6,7,8,9,10,11,12,13,14,15]

  • In addition to the frequent mutations in human tumors, the role of STAG2 inactivation in cancer pathogenesis is highlighted by the fact that it is commonly altered in transposon-mediated tumorigenesis in mouse model systems [17,18]

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Summary

Introduction

Cohesin is a multiprotein complex comprised of four primary subunits (SMC1A, SMC3, RAD21, and either STAG1 or STAG2) and four regulatory subunits (WAPL, CDCA5, and PDS5A or PDS5B) that is responsible for sister chromatid cohesion, regulation of gene expression, DNA repair, and other phenotypes [1,2]. STAG2 ( known as SA2) is the most commonly mutated subunit, presumably in part because the STAG2 gene is located on the X chromosome and requires only a single mutational event to be inactivated [5]. Among the other components of cohesin, RAD21 is the most commonly mutated subunit, with mutations of SMC1A and SMC3 present in a subset of tumors. In addition to the frequent mutations in human tumors, the role of STAG2 inactivation in cancer pathogenesis is highlighted by the fact that it is commonly altered in transposon-mediated tumorigenesis in mouse model systems [17,18]

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